BorgWarner’s Engine Timing Technologies Drive the Ford 5.0-Liter V8 Engine

BorgWarner’s Variable Cam Timing and New Low-Friction Silent Chain Technology Improve Engine Efficiency

Auburn Hills, Michigan, April 23, 2015 – BorgWarner’s advanced engine timing technologies, including cam torque actuated (CTA) phasers and new inverted tooth silent timing chains, drive Ford’s 5.0-liter V8 engine. The engine powers the 2015 Ford Mustang GT and is available as an option on the all-new F-150, the toughest, smartest, most capable F-150 ever. BorgWarner’s CTA phasers with mid-position lock technology enable greater control of valve timing over a broad range of engine speeds, and its newest silent timing chain reduces friction while improving wear performance.

“BorgWarner has supplied Ford with our advanced timing technology since the debut of the model year 2011 engine. For the upgraded 435 HP V8 engine for the 2015 Ford Mustang, we worked closely with Ford to develop new VCT and timing chain solutions to meet their challenging specifications,” said Joe Fadool, President and General Manager, BorgWarner Morse TEC. “At BorgWarner, we understand the complex interactions between engine timing components. From concept to launch and beyond, we collaborate with engine designers and manufacturers to tune and optimize integrated systems for specific applications.”

BorgWarner’s CTA phasers use the existing torsional energy in the valve train to actuate more quickly, use less engine oil and operate under a wider range of engine speeds and temperatures than conventional VCT systems. For added calibration opportunities, BorgWarner’s patented mid-position lock technology allows an increased range of camshaft positioning with a default stop at an intermediate position within the expanded range of travel. The unique passive mid-lock technology ensures failsafe return to the middle position for reliable engine starts in any operating condition. BorgWarner’s new compact, low-friction silent timing chain features thicker links with an optimized link back shape to reduce friction. Lower friction improves durability, reduces noise and increases engine efficiency. Super finish aperture (SFA) links and hard coated pin technology also improve wear performance even in severe environments.

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